Copper‐Based Plasmonic Catalysis: Recent Advances and Future Perspectives
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- Yue Xin
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Kaifu Yu
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Lantian Zhang
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Yanru Yang
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Haibo Yuan
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Hongliang Li
- Hefei National Laboratory for Physical Sciences at the Microscale Key Laboratory of Strongly‐Coupled Quantum Matter Physics of Chinese Academy of Sciences Key Laboratory of Surface and Interface Chemistry and Energy Catalysis of Anhui Higher Education Institutes Department of Chemical Physics University of Science and Technology of China Hefei Anhui 230026 P. R. China
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- Liangbing Wang
- State Key Laboratory for Powder Metallurgy Key Laboratory of Electronic Packing and Advanced Functional Materials of Hunan Province School of Materials Science and Engineering Central South University Changsha Hunan 410083 P. R. China
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- Jie Zeng
- Hefei National Laboratory for Physical Sciences at the Microscale Key Laboratory of Strongly‐Coupled Quantum Matter Physics of Chinese Academy of Sciences Key Laboratory of Surface and Interface Chemistry and Energy Catalysis of Anhui Higher Education Institutes Department of Chemical Physics University of Science and Technology of China Hefei Anhui 230026 P. R. China
書誌事項
- 公開日
- 2021-05-29
- 権利情報
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- http://onlinelibrary.wiley.com/termsAndConditions#vor
- DOI
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- 10.1002/adma.202008145
- 公開者
- Wiley
この論文をさがす
説明
<jats:title>Abstract</jats:title><jats:p>With the capability of inducing intense electromagnetic field, energetic charge carriers, and photothermal effect, plasmonic metals provide a unique opportunity for efficient light utilization and chemical transformation. Earth‐abundant low‐cost Cu possesses intense and tunable localized surface plasmon resonance from ultraviolet‐visible to near infrared region. Moreover, Cu essentially exhibits remarkable catalytic performance toward various reactions owing to its intriguing physical and chemical properties. Coupling with light‐harvesting ability and catalytic function, plasmonic Cu serves as a promising platform for efficient light‐driven chemical reaction. Herein, recent advancements of Cu‐based plasmonic photocatalysis are systematically summarized, including designing and synthetic strategies for Cu‐based catalysts, plasmonic catalytic performance, and mechanistic understanding over Cu‐based plasmonic catalysts. What's more, approaches for the enhancement of light utilization efficiency and construction of active centers on Cu‐based plasmonic catalysts are highlighted and discussed in detail, such as morphology and size control, regulation of electronic structure, defect and strain engineering, etc. Remaining challenges and future perspectives for further development of Cu‐based plasmonic catalysis are also proposed.</jats:p>
収録刊行物
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- Advanced Materials
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Advanced Materials 33 (32), e2008145-, 2021-05-29
Wiley
